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say I have the following example of a lambda expression with \x meant to represent lambda x

What would the beta reduction of the following be?

(\x.\x.(x x)) \z.z

My first instinct would have been for this to be

\x.(\z.z \z.z)

But someone I spoke with was of the opinion that the second \x would also be replaced with \z.z

which would mean it is really

\(\z.z).(\z.z \z.z) 

Can someone please clarify what the correct approach would be. I can't say I really understand the second approach.

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1 Answer 1

up vote 1 down vote accepted

Actually, (\x.\x.(x x)) \z.z is alpha equivalent to (\x.\y.(y y)) \z.z because variables are always bound to the closest lambda abstraction.

This means (\x.\x.(x x)) \z.z is beta equivalent to \x.(x x).

Substitution is never done on lambda abstractions, the \x. part.

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Rui thank you for the response. I had that feeling, any chance you might have a reference to a website/textbook that might highlight the "never substitute on lambda abstraction" part? I'd like to share that with them so that we're all on the same page. Thanks! –  JPC Feb 21 '14 at 17:08
Beta reduction is defined in terms of substitution, so here and here, page 8. –  user1861759 Feb 21 '14 at 20:14

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